import copy from collections import deque from cereal import car from opendbc.can.can_define import CANDefine from selfdrive.car.interfaces import CarStateBase from common.conversions import Conversions as CV from opendbc.can.parser import CANParser from selfdrive.car.nissan.values import CAR, DBC, CarControllerParams TORQUE_SAMPLES = 12 class CarState(CarStateBase): def __init__(self, CP): super().__init__(CP) can_define = CANDefine(DBC[CP.carFingerprint]["pt"]) self.lkas_hud_msg = {} self.lkas_hud_info_msg = {} self.steeringTorqueSamples = deque(TORQUE_SAMPLES*[0], TORQUE_SAMPLES) self.shifter_values = can_define.dv["GEARBOX"]["GEAR_SHIFTER"] def update(self, cp, cp_adas, cp_cam): ret = car.CarState.new_message() if self.CP.carFingerprint in (CAR.ROGUE, CAR.XTRAIL, CAR.ALTIMA): ret.gas = cp.vl["GAS_PEDAL"]["GAS_PEDAL"] elif self.CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): ret.gas = cp.vl["CRUISE_THROTTLE"]["GAS_PEDAL"] ret.gasPressed = bool(ret.gas > 3) if self.CP.carFingerprint in (CAR.ROGUE, CAR.XTRAIL, CAR.ALTIMA): ret.brakePressed = bool(cp.vl["DOORS_LIGHTS"]["USER_BRAKE_PRESSED"]) elif self.CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): ret.brakePressed = bool(cp.vl["CRUISE_THROTTLE"]["USER_BRAKE_PRESSED"]) ret.wheelSpeeds = self.get_wheel_speeds( cp.vl["WHEEL_SPEEDS_FRONT"]["WHEEL_SPEED_FL"], cp.vl["WHEEL_SPEEDS_FRONT"]["WHEEL_SPEED_FR"], cp.vl["WHEEL_SPEEDS_REAR"]["WHEEL_SPEED_RL"], cp.vl["WHEEL_SPEEDS_REAR"]["WHEEL_SPEED_RR"], ) ret.vEgoRaw = (ret.wheelSpeeds.fl + ret.wheelSpeeds.fr + ret.wheelSpeeds.rl + ret.wheelSpeeds.rr) / 4. ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw) ret.standstill = cp.vl["WHEEL_SPEEDS_REAR"]["WHEEL_SPEED_RL"] == 0.0 and cp.vl["WHEEL_SPEEDS_REAR"]["WHEEL_SPEED_RR"] == 0.0 if self.CP.carFingerprint == CAR.ALTIMA: ret.cruiseState.enabled = bool(cp.vl["CRUISE_STATE"]["CRUISE_ENABLED"]) else: ret.cruiseState.enabled = bool(cp_adas.vl["CRUISE_STATE"]["CRUISE_ENABLED"]) if self.CP.carFingerprint in (CAR.ROGUE, CAR.XTRAIL): ret.seatbeltUnlatched = cp.vl["HUD"]["SEATBELT_DRIVER_LATCHED"] == 0 ret.cruiseState.available = bool(cp_cam.vl["PRO_PILOT"]["CRUISE_ON"]) elif self.CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): if self.CP.carFingerprint == CAR.LEAF: ret.seatbeltUnlatched = cp.vl["SEATBELT"]["SEATBELT_DRIVER_LATCHED"] == 0 elif self.CP.carFingerprint == CAR.LEAF_IC: ret.seatbeltUnlatched = cp.vl["CANCEL_MSG"]["CANCEL_SEATBELT"] == 1 ret.cruiseState.available = bool(cp.vl["CRUISE_THROTTLE"]["CRUISE_AVAILABLE"]) elif self.CP.carFingerprint == CAR.ALTIMA: ret.seatbeltUnlatched = cp.vl["HUD"]["SEATBELT_DRIVER_LATCHED"] == 0 ret.cruiseState.available = bool(cp_adas.vl["PRO_PILOT"]["CRUISE_ON"]) if self.CP.carFingerprint == CAR.ALTIMA: speed = cp.vl["PROPILOT_HUD"]["SET_SPEED"] else: speed = cp_adas.vl["PROPILOT_HUD"]["SET_SPEED"] if speed != 255: if self.CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): conversion = CV.MPH_TO_MS if cp.vl["HUD_SETTINGS"]["SPEED_MPH"] else CV.KPH_TO_MS else: conversion = CV.MPH_TO_MS if cp.vl["HUD"]["SPEED_MPH"] else CV.KPH_TO_MS ret.cruiseState.speed = speed * conversion ret.cruiseState.speedCluster = (speed - 1) * conversion # Speed on HUD is always 1 lower than actually sent on can bus if self.CP.carFingerprint == CAR.ALTIMA: ret.steeringTorque = cp_cam.vl["STEER_TORQUE_SENSOR"]["STEER_TORQUE_DRIVER"] else: ret.steeringTorque = cp.vl["STEER_TORQUE_SENSOR"]["STEER_TORQUE_DRIVER"] self.steeringTorqueSamples.append(ret.steeringTorque) # Filtering driver torque to prevent steeringPressed false positives ret.steeringPressed = bool(abs(sum(self.steeringTorqueSamples) / TORQUE_SAMPLES) > CarControllerParams.STEER_THRESHOLD) ret.steeringAngleDeg = cp.vl["STEER_ANGLE_SENSOR"]["STEER_ANGLE"] ret.leftBlinker = bool(cp.vl["LIGHTS"]["LEFT_BLINKER"]) ret.rightBlinker = bool(cp.vl["LIGHTS"]["RIGHT_BLINKER"]) ret.doorOpen = any([cp.vl["DOORS_LIGHTS"]["DOOR_OPEN_RR"], cp.vl["DOORS_LIGHTS"]["DOOR_OPEN_RL"], cp.vl["DOORS_LIGHTS"]["DOOR_OPEN_FR"], cp.vl["DOORS_LIGHTS"]["DOOR_OPEN_FL"]]) ret.espDisabled = bool(cp.vl["ESP"]["ESP_DISABLED"]) can_gear = int(cp.vl["GEARBOX"]["GEAR_SHIFTER"]) ret.gearShifter = self.parse_gear_shifter(self.shifter_values.get(can_gear, None)) if self.CP.carFingerprint == CAR.ALTIMA: self.lkas_enabled = bool(cp.vl["LKAS_SETTINGS"]["LKAS_ENABLED"]) else: self.lkas_enabled = bool(cp_adas.vl["LKAS_SETTINGS"]["LKAS_ENABLED"]) self.cruise_throttle_msg = copy.copy(cp.vl["CRUISE_THROTTLE"]) if self.CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): self.cancel_msg = copy.copy(cp.vl["CANCEL_MSG"]) if self.CP.carFingerprint != CAR.ALTIMA: self.lkas_hud_msg = copy.copy(cp_adas.vl["PROPILOT_HUD"]) self.lkas_hud_info_msg = copy.copy(cp_adas.vl["PROPILOT_HUD_INFO_MSG"]) return ret @staticmethod def get_can_parser(CP): signals = [ # sig_name, sig_address ("WHEEL_SPEED_FL", "WHEEL_SPEEDS_FRONT"), ("WHEEL_SPEED_FR", "WHEEL_SPEEDS_FRONT"), ("WHEEL_SPEED_RL", "WHEEL_SPEEDS_REAR"), ("WHEEL_SPEED_RR", "WHEEL_SPEEDS_REAR"), ("STEER_ANGLE", "STEER_ANGLE_SENSOR"), ("DOOR_OPEN_FR", "DOORS_LIGHTS"), ("DOOR_OPEN_FL", "DOORS_LIGHTS"), ("DOOR_OPEN_RR", "DOORS_LIGHTS"), ("DOOR_OPEN_RL", "DOORS_LIGHTS"), ("RIGHT_BLINKER", "LIGHTS"), ("LEFT_BLINKER", "LIGHTS"), ("ESP_DISABLED", "ESP"), ("GEAR_SHIFTER", "GEARBOX"), ] checks = [ # sig_address, frequency ("STEER_ANGLE_SENSOR", 100), ("WHEEL_SPEEDS_REAR", 50), ("WHEEL_SPEEDS_FRONT", 50), ("ESP", 25), ("GEARBOX", 25), ("DOORS_LIGHTS", 10), ("LIGHTS", 10), ] if CP.carFingerprint in (CAR.ROGUE, CAR.XTRAIL, CAR.ALTIMA): signals += [ ("USER_BRAKE_PRESSED", "DOORS_LIGHTS"), ("GAS_PEDAL", "GAS_PEDAL"), ("SEATBELT_DRIVER_LATCHED", "HUD"), ("SPEED_MPH", "HUD"), ("PROPILOT_BUTTON", "CRUISE_THROTTLE"), ("CANCEL_BUTTON", "CRUISE_THROTTLE"), ("GAS_PEDAL_INVERTED", "CRUISE_THROTTLE"), ("SET_BUTTON", "CRUISE_THROTTLE"), ("RES_BUTTON", "CRUISE_THROTTLE"), ("FOLLOW_DISTANCE_BUTTON", "CRUISE_THROTTLE"), ("NO_BUTTON_PRESSED", "CRUISE_THROTTLE"), ("GAS_PEDAL", "CRUISE_THROTTLE"), ("USER_BRAKE_PRESSED", "CRUISE_THROTTLE"), ("NEW_SIGNAL_2", "CRUISE_THROTTLE"), ("GAS_PRESSED_INVERTED", "CRUISE_THROTTLE"), ("COUNTER", "CRUISE_THROTTLE"), ("unsure1", "CRUISE_THROTTLE"), ("unsure2", "CRUISE_THROTTLE"), ("unsure3", "CRUISE_THROTTLE"), ] checks += [ ("GAS_PEDAL", 100), ("CRUISE_THROTTLE", 50), ("HUD", 25), ] elif CP.carFingerprint in (CAR.LEAF, CAR.LEAF_IC): signals += [ ("USER_BRAKE_PRESSED", "CRUISE_THROTTLE"), ("GAS_PEDAL", "CRUISE_THROTTLE"), ("CRUISE_AVAILABLE", "CRUISE_THROTTLE"), ("SPEED_MPH", "HUD_SETTINGS"), ("SEATBELT_DRIVER_LATCHED", "SEATBELT"), # Copy other values, we use this to cancel ("CANCEL_SEATBELT", "CANCEL_MSG"), ("NEW_SIGNAL_1", "CANCEL_MSG"), ("NEW_SIGNAL_2", "CANCEL_MSG"), ("NEW_SIGNAL_3", "CANCEL_MSG"), ] checks += [ ("BRAKE_PEDAL", 100), ("CRUISE_THROTTLE", 50), ("CANCEL_MSG", 50), ("HUD_SETTINGS", 25), ("SEATBELT", 10), ] if CP.carFingerprint == CAR.ALTIMA: signals += [ ("LKAS_ENABLED", "LKAS_SETTINGS"), ("CRUISE_ENABLED", "CRUISE_STATE"), ("SET_SPEED", "PROPILOT_HUD"), ] checks += [ ("CRUISE_STATE", 10), ("LKAS_SETTINGS", 10), ("PROPILOT_HUD", 50), ] return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 1) signals.append(("STEER_TORQUE_DRIVER", "STEER_TORQUE_SENSOR")) checks.append(("STEER_TORQUE_SENSOR", 100)) return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 0) @staticmethod def get_adas_can_parser(CP): # this function generates lists for signal, messages and initial values if CP.carFingerprint == CAR.ALTIMA: signals = [ ("DESIRED_ANGLE", "LKAS"), ("SET_0x80_2", "LKAS"), ("MAX_TORQUE", "LKAS"), ("SET_0x80", "LKAS"), ("COUNTER", "LKAS"), ("LKA_ACTIVE", "LKAS"), ("CRUISE_ON", "PRO_PILOT"), ] checks = [ ("LKAS", 100), ("PRO_PILOT", 100), ] else: signals = [ # sig_name, sig_address ("LKAS_ENABLED", "LKAS_SETTINGS"), ("CRUISE_ENABLED", "CRUISE_STATE"), ("DESIRED_ANGLE", "LKAS"), ("SET_0x80_2", "LKAS"), ("MAX_TORQUE", "LKAS"), ("SET_0x80", "LKAS"), ("COUNTER", "LKAS"), ("LKA_ACTIVE", "LKAS"), # Below are the HUD messages. We copy the stock message and modify ("LARGE_WARNING_FLASHING", "PROPILOT_HUD"), ("SIDE_RADAR_ERROR_FLASHING1", "PROPILOT_HUD"), ("SIDE_RADAR_ERROR_FLASHING2", "PROPILOT_HUD"), ("LEAD_CAR", "PROPILOT_HUD"), ("LEAD_CAR_ERROR", "PROPILOT_HUD"), ("FRONT_RADAR_ERROR", "PROPILOT_HUD"), ("FRONT_RADAR_ERROR_FLASHING", "PROPILOT_HUD"), ("SIDE_RADAR_ERROR_FLASHING3", "PROPILOT_HUD"), ("LKAS_ERROR_FLASHING", "PROPILOT_HUD"), ("SAFETY_SHIELD_ACTIVE", "PROPILOT_HUD"), ("RIGHT_LANE_GREEN_FLASH", "PROPILOT_HUD"), ("LEFT_LANE_GREEN_FLASH", "PROPILOT_HUD"), ("FOLLOW_DISTANCE", "PROPILOT_HUD"), ("AUDIBLE_TONE", "PROPILOT_HUD"), ("SPEED_SET_ICON", "PROPILOT_HUD"), ("SMALL_STEERING_WHEEL_ICON", "PROPILOT_HUD"), ("unknown59", "PROPILOT_HUD"), ("unknown55", "PROPILOT_HUD"), ("unknown26", "PROPILOT_HUD"), ("unknown28", "PROPILOT_HUD"), ("unknown31", "PROPILOT_HUD"), ("SET_SPEED", "PROPILOT_HUD"), ("unknown43", "PROPILOT_HUD"), ("unknown08", "PROPILOT_HUD"), ("unknown05", "PROPILOT_HUD"), ("unknown02", "PROPILOT_HUD"), ("NA_HIGH_ACCEL_TEMP", "PROPILOT_HUD_INFO_MSG"), ("SIDE_RADAR_NA_HIGH_CABIN_TEMP", "PROPILOT_HUD_INFO_MSG"), ("SIDE_RADAR_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("LKAS_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("FRONT_RADAR_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("SIDE_RADAR_NA_CLEAN_REAR_CAMERA", "PROPILOT_HUD_INFO_MSG"), ("NA_POOR_ROAD_CONDITIONS", "PROPILOT_HUD_INFO_MSG"), ("CURRENTLY_UNAVAILABLE", "PROPILOT_HUD_INFO_MSG"), ("SAFETY_SHIELD_OFF", "PROPILOT_HUD_INFO_MSG"), ("FRONT_COLLISION_NA_FRONT_RADAR_OBSTRUCTION", "PROPILOT_HUD_INFO_MSG"), ("PEDAL_MISSAPPLICATION_SYSTEM_ACTIVATED", "PROPILOT_HUD_INFO_MSG"), ("SIDE_IMPACT_NA_RADAR_OBSTRUCTION", "PROPILOT_HUD_INFO_MSG"), ("WARNING_DO_NOT_ENTER", "PROPILOT_HUD_INFO_MSG"), ("SIDE_IMPACT_SYSTEM_OFF", "PROPILOT_HUD_INFO_MSG"), ("SIDE_IMPACT_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("FRONT_COLLISION_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("SIDE_RADAR_MALFUNCTION2", "PROPILOT_HUD_INFO_MSG"), ("LKAS_MALFUNCTION2", "PROPILOT_HUD_INFO_MSG"), ("FRONT_RADAR_MALFUNCTION2", "PROPILOT_HUD_INFO_MSG"), ("PROPILOT_NA_MSGS", "PROPILOT_HUD_INFO_MSG"), ("BOTTOM_MSG", "PROPILOT_HUD_INFO_MSG"), ("HANDS_ON_WHEEL_WARNING", "PROPILOT_HUD_INFO_MSG"), ("WARNING_STEP_ON_BRAKE_NOW", "PROPILOT_HUD_INFO_MSG"), ("PROPILOT_NA_FRONT_CAMERA_OBSTRUCTED", "PROPILOT_HUD_INFO_MSG"), ("PROPILOT_NA_HIGH_CABIN_TEMP", "PROPILOT_HUD_INFO_MSG"), ("WARNING_PROPILOT_MALFUNCTION", "PROPILOT_HUD_INFO_MSG"), ("ACC_UNAVAILABLE_HIGH_CABIN_TEMP", "PROPILOT_HUD_INFO_MSG"), ("ACC_NA_FRONT_CAMERA_IMPARED", "PROPILOT_HUD_INFO_MSG"), ("unknown07", "PROPILOT_HUD_INFO_MSG"), ("unknown10", "PROPILOT_HUD_INFO_MSG"), ("unknown15", "PROPILOT_HUD_INFO_MSG"), ("unknown23", "PROPILOT_HUD_INFO_MSG"), ("unknown19", "PROPILOT_HUD_INFO_MSG"), ("unknown31", "PROPILOT_HUD_INFO_MSG"), ("unknown32", "PROPILOT_HUD_INFO_MSG"), ("unknown46", "PROPILOT_HUD_INFO_MSG"), ("unknown61", "PROPILOT_HUD_INFO_MSG"), ("unknown55", "PROPILOT_HUD_INFO_MSG"), ("unknown50", "PROPILOT_HUD_INFO_MSG"), ] checks = [ ("PROPILOT_HUD_INFO_MSG", 2), ("LKAS_SETTINGS", 10), ("CRUISE_STATE", 50), ("PROPILOT_HUD", 50), ("LKAS", 100), ] return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 2) @staticmethod def get_cam_can_parser(CP): signals = [] checks = [] if CP.carFingerprint in (CAR.ROGUE, CAR.XTRAIL): signals.append(("CRUISE_ON", "PRO_PILOT")) checks.append(("PRO_PILOT", 100)) elif CP.carFingerprint == CAR.ALTIMA: signals.append(("STEER_TORQUE_DRIVER", "STEER_TORQUE_SENSOR")) checks.append(("STEER_TORQUE_SENSOR", 100)) return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 0) return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 1)